对开关电流技术与开关电容技术的一些基本特征进行了比较。
A comparison between switched current and switched capacitor techniques is made.
在滤波部分,高组滤波和拨号音频滤波等使用了开关电容技术。
The filter section uses switched capacitor techniques for high-and low-group filters and dial-tone rejection.
提出了一种基于电流模的开关电流技术取代基于电压模的开关电容技术实现连续小波变换的方法。
This paper proposed a method for the implementation of continuous wavelet-transform (CWT) using switched-current (si) technology, based on current mode and a substitute of switched-capacitor.
基于PWM整流技术,并通过控制逆变器开关的导通顺序调节逆变器直流侧的电容电压。
Based on the technique of PWM rectifier, the DC voltage of the inverter was adjusted by controlling the switch order of the switching elements.
利用电容式技术应用中的灵敏度电容式接近开关是依赖于目标对象的材料特性。
In applications utilizing capacitive technology the sensitivity of capacitive proximity switches is dependent on the material characteristics of the target object.
基于键合微平台技术,设计了一种电容式并联开关。
A capacitive shunt switch is designed on the basis of the micro-platform technology.
介绍了数字化开关电容滤波技术,并设计了可以通过改变开关时钟频率来自由调整中心频率的开关电容带阻滤波器,使中心频率具有很高的精度和稳定度。
Meanwhile, the switched capacitor notch filter is designed, which can adjust center frequency freely by changing the switching clock frequency and make the center frequency highly accurate and stable.
设计中采用全差分结构和底极板采样技术,优化了开关电容和MOS开关。
Full-differential structure and bottom plane sampling technique and optimization of switch capacitor and MOS switch were used in this circuit.
采用了电容开关的技术以补偿工艺、温度和电源电压的变化,并对片上电感和射频开关进行优化设计以得到最大的Q值。
Some optimization designs were made with the on-chip inductor and the RF switches to get the maximum Q-value.
在开关电容电路中,电容失配是重要的误差源,鉴于此,本文介绍了一种电容误差平均技术,能够有效的降低电容失配带来的影响。
Thus, this paper introduces a method called Capacitor Error Averaging Technique, which could effectively reduce the negative influence caused by capacitor-mismatch.
然后运用脉冲功率技术,通过由电容器和磁开关等组成的脉冲陡化电路对正弦电压波形进行改形,最后输出纳秒级上升前沿、高重复频率的高压脉冲。
Then, transform it through the pulse sharpening circuit consisting mainly of capacitances and magnetic switches, finally outputting the high voltage and high repetition rate nanosecond pulses.
晶闸管投切电容器(TSC)是一种利用晶闸管作为无触点开关的动态无功补偿装置,是静止无功补偿技术的一个重要组成部分。
The thyristor switched capacitor (TSC) is the dynamic reactive power compensation equipment using thyristor as No-contact switch and an important part of the SVC technology.
减少动态功耗的主要技术:(1)降低开关电容。(2)降低充放电电压摆幅等。
The main techniques used to decrease active power are :(1)reduce switch capacitance. (2)Minimize level of voltage which to precharge or discharge capacitance.
减少动态功耗的主要技术:(1)降低开关电容。(2)降低充放电电压摆幅等。
The main techniques used to decrease active power are :(1)reduce switch capacitance. (2)Minimize level of voltage which to precharge or discharge capacitance.
应用推荐